require_relative 'helper'
require 'reline'
require 'stringio'
begin
  require "pty"
rescue LoadError # some platforms don't support PTY
end

class Reline::Test < Reline::TestCase
  class DummyCallbackObject
    def call; end
  end

  def setup
    Reline.send(:test_mode)
    Reline.output_modifier_proc = nil
    Reline.completion_proc = nil
    Reline.prompt_proc = nil
    Reline.auto_indent_proc = nil
    Reline.pre_input_hook = nil
    Reline.dig_perfect_match_proc = nil
  end

  def teardown
    Reline.test_reset
  end

  def test_completion_append_character
    completion_append_character = Reline.completion_append_character

    assert_equal(nil, Reline.completion_append_character)

    Reline.completion_append_character = ""
    assert_equal(nil, Reline.completion_append_character)

    Reline.completion_append_character = "a".encode(Encoding::ASCII)
    assert_equal("a", Reline.completion_append_character)
    assert_equal(get_reline_encoding, Reline.completion_append_character.encoding)

    Reline.completion_append_character = "ba".encode(Encoding::ASCII)
    assert_equal("b", Reline.completion_append_character)
    assert_equal(get_reline_encoding, Reline.completion_append_character.encoding)

    Reline.completion_append_character = "cba".encode(Encoding::ASCII)
    assert_equal("c", Reline.completion_append_character)
    assert_equal(get_reline_encoding, Reline.completion_append_character.encoding)

    Reline.completion_append_character = nil
    assert_equal(nil, Reline.completion_append_character)
  ensure
    Reline.completion_append_character = completion_append_character
  end

  def test_basic_word_break_characters
    basic_word_break_characters = Reline.basic_word_break_characters

    assert_equal(" \t\n`><=;|&{(", Reline.basic_word_break_characters)

    Reline.basic_word_break_characters = "[".encode(Encoding::ASCII)
    assert_equal("[", Reline.basic_word_break_characters)
    assert_equal(get_reline_encoding, Reline.basic_word_break_characters.encoding)
  ensure
    Reline.basic_word_break_characters = basic_word_break_characters
  end

  def test_completer_word_break_characters
    completer_word_break_characters = Reline.completer_word_break_characters

    assert_equal(" \t\n`><=;|&{(", Reline.completer_word_break_characters)

    Reline.completer_word_break_characters = "[".encode(Encoding::ASCII)
    assert_equal("[", Reline.completer_word_break_characters)
    assert_equal(get_reline_encoding, Reline.completer_word_break_characters.encoding)

    assert_nothing_raised { Reline.completer_word_break_characters = '' }
  ensure
    Reline.completer_word_break_characters = completer_word_break_characters
  end

  def test_basic_quote_characters
    basic_quote_characters = Reline.basic_quote_characters

    assert_equal('"\'', Reline.basic_quote_characters)

    Reline.basic_quote_characters = "`".encode(Encoding::ASCII)
    assert_equal("`", Reline.basic_quote_characters)
    assert_equal(get_reline_encoding, Reline.basic_quote_characters.encoding)
  ensure
    Reline.basic_quote_characters = basic_quote_characters
  end

  def test_completer_quote_characters
    completer_quote_characters = Reline.completer_quote_characters

    assert_equal('"\'', Reline.completer_quote_characters)

    Reline.completer_quote_characters = "`".encode(Encoding::ASCII)
    assert_equal("`", Reline.completer_quote_characters)
    assert_equal(get_reline_encoding, Reline.completer_quote_characters.encoding)

    assert_nothing_raised { Reline.completer_quote_characters = '' }
  ensure
    Reline.completer_quote_characters = completer_quote_characters
  end

  def test_filename_quote_characters
    filename_quote_characters = Reline.filename_quote_characters

    assert_equal('', Reline.filename_quote_characters)

    Reline.filename_quote_characters = "\'".encode(Encoding::ASCII)
    assert_equal("\'", Reline.filename_quote_characters)
    assert_equal(get_reline_encoding, Reline.filename_quote_characters.encoding)
  ensure
    Reline.filename_quote_characters = filename_quote_characters
  end

  def test_special_prefixes
    special_prefixes = Reline.special_prefixes

    assert_equal('', Reline.special_prefixes)

    Reline.special_prefixes = "\'".encode(Encoding::ASCII)
    assert_equal("\'", Reline.special_prefixes)
    assert_equal(get_reline_encoding, Reline.special_prefixes.encoding)
  ensure
    Reline.special_prefixes = special_prefixes
  end

  def test_completion_case_fold
    completion_case_fold = Reline.completion_case_fold

    assert_equal(nil, Reline.completion_case_fold)

    Reline.completion_case_fold = true
    assert_equal(true, Reline.completion_case_fold)

    Reline.completion_case_fold = "hoge".encode(Encoding::ASCII)
    assert_equal("hoge", Reline.completion_case_fold)
  ensure
    Reline.completion_case_fold = completion_case_fold
  end

  def test_completion_proc
    omit unless Reline.completion_proc == nil
    # Another test can set Reline.completion_proc

    # assert_equal(nil, Reline.completion_proc)

    dummy_proc = proc {}
    Reline.completion_proc = dummy_proc
    assert_equal(dummy_proc, Reline.completion_proc)

    l = lambda {}
    Reline.completion_proc = l
    assert_equal(l, Reline.completion_proc)

    assert_raise(ArgumentError) { Reline.completion_proc = 42 }
    assert_raise(ArgumentError) { Reline.completion_proc = "hoge" }

    dummy = DummyCallbackObject.new
    Reline.completion_proc = dummy
    assert_equal(dummy, Reline.completion_proc)
  end

  def test_output_modifier_proc
    assert_equal(nil, Reline.output_modifier_proc)

    dummy_proc = proc {}
    Reline.output_modifier_proc = dummy_proc
    assert_equal(dummy_proc, Reline.output_modifier_proc)

    l = lambda {}
    Reline.output_modifier_proc = l
    assert_equal(l, Reline.output_modifier_proc)

    assert_raise(ArgumentError) { Reline.output_modifier_proc = 42 }
    assert_raise(ArgumentError) { Reline.output_modifier_proc = "hoge" }

    dummy = DummyCallbackObject.new
    Reline.output_modifier_proc = dummy
    assert_equal(dummy, Reline.output_modifier_proc)
  end

  def test_prompt_proc
    assert_equal(nil, Reline.prompt_proc)

    dummy_proc = proc {}
    Reline.prompt_proc = dummy_proc
    assert_equal(dummy_proc, Reline.prompt_proc)

    l = lambda {}
    Reline.prompt_proc = l
    assert_equal(l, Reline.prompt_proc)

    assert_raise(ArgumentError) { Reline.prompt_proc = 42 }
    assert_raise(ArgumentError) { Reline.prompt_proc = "hoge" }

    dummy = DummyCallbackObject.new
    Reline.prompt_proc = dummy
    assert_equal(dummy, Reline.prompt_proc)
  end

  def test_auto_indent_proc
    assert_equal(nil, Reline.auto_indent_proc)

    dummy_proc = proc {}
    Reline.auto_indent_proc = dummy_proc
    assert_equal(dummy_proc, Reline.auto_indent_proc)

    l = lambda {}
    Reline.auto_indent_proc = l
    assert_equal(l, Reline.auto_indent_proc)

    assert_raise(ArgumentError) { Reline.auto_indent_proc = 42 }
    assert_raise(ArgumentError) { Reline.auto_indent_proc = "hoge" }

    dummy = DummyCallbackObject.new
    Reline.auto_indent_proc = dummy
    assert_equal(dummy, Reline.auto_indent_proc)
  end

  def test_pre_input_hook
    assert_equal(nil, Reline.pre_input_hook)

    dummy_proc = proc {}
    Reline.pre_input_hook = dummy_proc
    assert_equal(dummy_proc, Reline.pre_input_hook)

    l = lambda {}
    Reline.pre_input_hook = l
    assert_equal(l, Reline.pre_input_hook)
  end

  def test_dig_perfect_match_proc
    assert_equal(nil, Reline.dig_perfect_match_proc)

    dummy_proc = proc {}
    Reline.dig_perfect_match_proc = dummy_proc
    assert_equal(dummy_proc, Reline.dig_perfect_match_proc)

    l = lambda {}
    Reline.dig_perfect_match_proc = l
    assert_equal(l, Reline.dig_perfect_match_proc)

    assert_raise(ArgumentError) { Reline.dig_perfect_match_proc = 42 }
    assert_raise(ArgumentError) { Reline.dig_perfect_match_proc = "hoge" }

    dummy = DummyCallbackObject.new
    Reline.dig_perfect_match_proc = dummy
    assert_equal(dummy, Reline.dig_perfect_match_proc)
  end

  def test_insert_text
    assert_equal('', Reline.line_buffer)
    assert_equal(0, Reline.point)
    Reline.insert_text('abc')
    assert_equal('abc', Reline.line_buffer)
    assert_equal(3, Reline.point)
  end

  def test_delete_text
    assert_equal('', Reline.line_buffer)
    assert_equal(0, Reline.point)
    Reline.insert_text('abc')
    assert_equal('abc', Reline.line_buffer)
    assert_equal(3, Reline.point)
    Reline.delete_text()
    assert_equal('', Reline.line_buffer)
    assert_equal(0, Reline.point)
    Reline.insert_text('abc')
    Reline.delete_text(1)
    assert_equal('a', Reline.line_buffer)
    assert_equal(1, Reline.point)
    Reline.insert_text('defghi')
    Reline.delete_text(2, 2)
    assert_equal('adghi', Reline.line_buffer)
    assert_equal(5, Reline.point)
  end

  def test_set_input_and_output
    assert_raise(TypeError) do
      Reline.input = "This is not a file."
    end
    assert_raise(TypeError) do
      Reline.output = "This is not a file."
    end

    input, to_write = IO.pipe
    to_read, output = IO.pipe
    unless Reline.__send__(:input=, input)
      omit "Setting to input is not effective on #{Reline.core.io_gate}"
    end
    Reline.output = output

    to_write.write "a\n"
    result = Reline.readline
    to_write.close
    read_text = to_read.read_nonblock(100)
    assert_equal('a', result)
    refute(read_text.empty?)
  ensure
    input&.close
    output&.close
    to_read&.close
  end

  def test_vi_editing_mode
    Reline.vi_editing_mode
    assert_equal(:vi_insert, Reline.core.config.instance_variable_get(:@editing_mode_label))
  end

  def test_emacs_editing_mode
    Reline.emacs_editing_mode
    assert_equal(:emacs, Reline.core.config.instance_variable_get(:@editing_mode_label))
  end

  def test_add_dialog_proc
    dummy_proc = proc {}
    Reline.add_dialog_proc(:test_proc, dummy_proc)
    d = Reline.dialog_proc(:test_proc)
    assert_equal(dummy_proc, d.dialog_proc)

    dummy_proc_2 = proc {}
    Reline.add_dialog_proc(:test_proc, dummy_proc_2)
    d = Reline.dialog_proc(:test_proc)
    assert_equal(dummy_proc_2, d.dialog_proc)

    Reline.add_dialog_proc(:test_proc, nil)
    assert_nil(Reline.dialog_proc(:test_proc))

    l = lambda {}
    Reline.add_dialog_proc(:test_lambda, l)
    d = Reline.dialog_proc(:test_lambda)
    assert_equal(l, d.dialog_proc)

    assert_equal(nil, Reline.dialog_proc(:test_nothing))

    assert_raise(ArgumentError) { Reline.add_dialog_proc(:error, 42) }
    assert_raise(ArgumentError) { Reline.add_dialog_proc(:error, 'hoge') }
    assert_raise(ArgumentError) { Reline.add_dialog_proc('error', proc {} ) }

    dummy = DummyCallbackObject.new
    Reline.add_dialog_proc(:dummy, dummy)
    d = Reline.dialog_proc(:dummy)
    assert_equal(dummy, d.dialog_proc)
  end

  def test_add_dialog_proc_with_context
    dummy_proc = proc {}
    array = Array.new
    Reline.add_dialog_proc(:test_proc, dummy_proc, array)
    d = Reline.dialog_proc(:test_proc)
    assert_equal(dummy_proc, d.dialog_proc)
    assert_equal(array, d.context)

    Reline.add_dialog_proc(:test_proc, dummy_proc, nil)
    d = Reline.dialog_proc(:test_proc)
    assert_equal(dummy_proc, d.dialog_proc)
    assert_equal(nil, d.context)
  end

  def test_readmultiline
    # readmultiline is module function
    assert_include(Reline.methods, :readmultiline)
    assert_include(Reline.private_instance_methods, :readmultiline)
  end

  def test_readline
    # readline is module function
    assert_include(Reline.methods, :readline)
    assert_include(Reline.private_instance_methods, :readline)
  end

  def test_read_io
    # TODO in Reline::Core
  end

  def test_dumb_terminal
    lib = File.expand_path("../../lib", __dir__)
    out = IO.popen([{"TERM"=>"dumb"}, Reline.test_rubybin, "-I#{lib}", "-rreline", "-e", "p Reline.core.io_gate"], &:read)
    assert_match(/#<Reline::Dumb/, out.chomp)
  end

  def test_print_prompt_before_everything_else
    pend if win?
    lib = File.expand_path("../../lib", __dir__)
    code = "p Reline::IOGate.class; p Reline.readline 'prompt> '"
    out = IO.popen([Reline.test_rubybin, "-I#{lib}", "-rreline", "-e", code], "r+") do |io|
      io.write "abc\n"
      io.close_write
      io.read
    end
    assert_match(/\AReline::ANSI\nprompt> /, out)
  end

  def test_read_eof_returns_input
    pend if win?
    lib = File.expand_path("../../lib", __dir__)
    code = "p result: Reline.readline"
    out = IO.popen([Reline.test_rubybin, "-I#{lib}", "-rreline", "-e", code], "r+") do |io|
      io.write "a\C-a"
      io.close_write
      io.read
    end
    assert_include(out, { result: 'a' }.inspect)
  end

  def test_read_eof_returns_nil_if_empty
    pend if win?
    lib = File.expand_path("../../lib", __dir__)
    code = "p result: Reline.readline"
    out = IO.popen([Reline.test_rubybin, "-I#{lib}", "-rreline", "-e", code], "r+") do |io|
      io.write "a\C-h"
      io.close_write
      io.read
    end
    assert_include(out, { result: nil }.inspect)
  end

  def test_require_reline_should_not_trigger_winsize
    pend if win?
    lib = File.expand_path("../../lib", __dir__)
    code = <<~RUBY
      require "io/console"
      def STDIN.tty?; true; end
      def STDOUT.tty?; true; end
      def STDIN.winsize; raise; end
      require("reline") && p(Reline.core.io_gate)
    RUBY
    out = IO.popen([{}, Reline.test_rubybin, "-I#{lib}", "-e", code], &:read)
    assert_include(out.chomp, "Reline::ANSI")
  end

  def win?
    /mswin|mingw/.match?(RUBY_PLATFORM)
  end

  def test_tty_amibuous_width
    omit unless defined?(PTY)
    ruby_file = Tempfile.create('rubyfile')
    ruby_file.write(<<~RUBY)
      require 'reline'
      Thread.new { sleep 2; puts 'timeout'; exit }
      p [Reline.ambiguous_width, gets.chomp]
    RUBY
    ruby_file.close
    lib = File.expand_path('../../lib', __dir__)
    cmd = [{ 'TERM' => 'xterm' }, 'ruby', '-I', lib, ruby_file.to_path]

    # Calculate ambiguous width from cursor position
    [1, 2].each do |ambiguous_width|
      PTY.spawn(*cmd) do |r, w, pid|
        loop { break if r.readpartial(1024).include?("\e[6n") }
        w.puts "hello\e[10;#{ambiguous_width + 1}Rworld"
        assert_include(r.gets, [ambiguous_width, 'helloworld'].inspect)
      ensure
        r.close
        w.close
        Process.waitpid pid
      end
    end

    # Ambiguous width = 1 when cursor pos timed out
    PTY.spawn(*cmd) do |r, w, pid|
      loop { break if r.readpartial(1024).include?("\e[6n") }
      w.puts "hello\e[10;2Sworld"
      assert_include(r.gets, [1, "hello\e[10;2Sworld"].inspect)
    ensure
      r.close
      w.close
      Process.waitpid pid
    end
  ensure
    File.delete(ruby_file.path) if ruby_file
  end

  def get_reline_encoding
    if encoding = Reline.core.encoding
      encoding
    elsif win?
      Encoding::UTF_8
    else
      Encoding::default_external
    end
  end
end
